scholarly journals Microwave Characterization of Hydrophilic and Hydrophobic Plant Pathogenic Fungi Using Open-Ended Coaxial Probe

IEEE Access ◽  
2019 ◽  
Vol 7 ◽  
pp. 45841-45849 ◽  
Author(s):  
Mousa I. Hussein ◽  
Dwija Jithin ◽  
Indu Jiji Rajmohan ◽  
Arjun Sham ◽  
Esam Eldin M. A. Saeed ◽  
...  
Keyword(s):  
Pathogenic Fungi ◽  
Plant Pathogenic Fungi ◽  
Microwave Characterization ◽  
Coaxial Probe

scholarly journals BIOLOGICAL CONTROL OF PHYTOPATHOGENIC FUNGI USING DIFFERENT EXTRACTS OF CHAETOMIUM CUPREUM

2018 ◽  
Vol 11 (9) ◽  
pp. 328
Author(s):  
Sharmila Tirumale ◽  
Nazir Wani
Keyword(s):  
Ethyl Acetate ◽  
Mycelial Growth ◽  
Ethyl Acetate Extract ◽  
Pathogenic Fungi ◽  
Phytopathogenic Fungi ◽  
Plant Pathogenic Fungi ◽  
Purification And Characterization ◽  
Butanol Extract ◽  
Ethyl Acetate Extracts

Objective: This study evaluated the Chaetomium cupreum extracts as biocontrol agents against four plant pathogenic fungi (Cladosporium cladosporioides, Fusarium oxysporum, Phomopsis azadirachtae, and Rhizoctonia solani).Method: The antifungal activity of n-butanol and ethyl acetate extracts of C. cupreum was evaluated against plant pathogenic fungi using food poison method.Result: In n-butanol extract, the percentage inhibition of mycelial growth against C. cladosporoides was 88.3±0.1, F. oxysporum was 59.4±0.2, R. solani was 56.2±0.9, and P. azadirachtae was 52.0±0.1at 0.25 mg/ml, respectively. In ethyl acetate extract, the percentage inhibition of mycelial growth against C. cladosporoides was 86.0±0.5, F. oxysporum was 66.4±0.1, P. azadirachtae was 55.2±0.9, and R. solani was 52.0±0.1 at 0.25 mg/ml, respectively.Conclusion: It was found that n-butanol extract is more effective than ethyl acetate extract of C. cupreum. Future studies will focus on the purification and characterization of compounds of C. cupreum and their biocontrol capacity with the mechanism for plant pathological applications.

Synthesis and characterization of chitosan–copper nanocomposites and their fungicidal activity against two sclerotia-forming plant pathogenic fungi

2017 ◽  
Vol 7 (3) ◽  
pp. 249-258 ◽  
Author(s):  
Margarita S. Rubina ◽  
Alexander Yu. Vasil’kov ◽  
Alexander V. Naumkin ◽  
Eleonora V. Shtykova ◽  
Sergey S. Abramchuk ◽  
...  
Keyword(s):  
Fungicidal Activity ◽  
Pathogenic Fungi ◽  
Synthesis And Characterization ◽  
Plant Pathogenic Fungi ◽  
Copper Nanocomposites

scholarly journals Systemic Identification and Functional Characterization of Common in Fungal Extracellular Membrane Proteins in Lasiodiplodia theobromae

2021 ◽  
Vol 12 ◽  
Author(s):  
Junbo Peng ◽  
Linna Wu ◽  
Wei Zhang ◽  
Qi Zhang ◽  
Qikai Xing ◽  
...  
Keyword(s):  
Nicotiana Benthamiana ◽  
Functional Characterization ◽  
Pathogenic Fungi ◽  
Opportunistic Pathogen ◽  
Plant Pathogenic Fungi ◽  
Rt Pcr ◽  
Lasiodiplodia Theobromae ◽  
Almost All ◽  
Plant Pathogen Interactions

Plant pathogenic fungi deploy secreted proteins into apoplastic space or intracellular lumen to promote successful infections during plant-pathogen interactions. In the present study, fourteen CFEM domain-containing proteins were systemically identified in Lasiodiplodia theobromae and eight of them were functionally characterized. All eight proteins were confirmed to be secreted into extracellular space by a yeast signal peptide trapping system. The transcriptional levels of most CFEM genes, except for LtCFEM2 and LtCFEM6, were significantly elevated during infection. In addition, almost all LtCFEM genes, apart from LtCFEM2, LtCFEM3, and LtCFEM6, were transcriptionally up-regulated at 35°C in contrast to that at 25°C and 30°C. As two elicitors, LtCFEM1 induced local yellowish phenotype and LtCFEM4 triggered cell death in Nicotiana benthamiana leaves. Furthermore, these proteins displayed distinct subcellular localizations when expressed transiently in N. benthamiana. Moreover, two genes, LtCFEM7 and LtCFEM8, were found to be spliced alternatively by RT-PCR and sequencing. Therefore, our data suggest that LtCFEM proteins play important roles in multiple aspects, including pathogenicity and plant immune response, which will enhance our understanding of the sophisticated pathogenic mechanisms of plant opportunistic pathogen L. theobromae.

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